% file: .../doc/asn1-defs.tex

% $Header: /usr/app/odstb/CVS/snacc/doc/asn1-defs.tex,v 1.1 1997/01/01 22:47:47 rj Exp $
% $Log: asn1-defs.tex,v $
% Revision 1.1  1997/01/01 22:47:47  rj
% first check-in
%

\chapter{The Module Data Structure ASN.1 Definition}

The ASN.1 modules are parsed into an internal data structure.  The
data structure was initially defined in ASN.1 with the idea that if
we needed to write a parsed module to disk, the ASN.1 encoding
routines could be used.  No file format was needed so the ASN.1 was
merely an exercise.

This procedure highlighted the problem with circular links and index
like links in ASN.1 data structures.  BER does not support this type
of linking; to handle it, the offending links can be made optional
and not encoded.  After decoding, these links need to be
re-established.  See the type table data structure for a format
suitable for writing to files.

The following is the ASN.1 definition of the Module data structure.
The C translation (as generated by an early version of Snacc) can be
found in {\ufn \dots/compiler/core/asn1module.h}\footnote{
  The {\ufn asn1module.h} that is produced by a current version of Snacc cannot be compiled because its type definitions are in the wrong order.
  This may be caused by the {\ASN --\,--snacc cTypeName} compiler directives, since one of the affected types is BasicTypeChoiceId, but i'm not really sure.
  ---rj
}.
\begin{small}
\begin{verbatim}
-- .../asn1specs/asn1module.asn1
--
-- This module describes the data structure used to represent the
-- compiled ASN.1.
-- Using ASN.1 for the internal data structure allows writing
-- (encoding) to disk for storage (not done yet due to recursive
--  refs back to the module)
--
-- Mike Sample 91/08/29
-- Modifed 92/05  MS
--

Asn1Module DEFINITIONS IMPLICIT TAGS ::=
BEGIN

-- exports everything
-- imports nothing

Modules ::= [APPLICATION 0] IMPLICIT SEQUENCE
{
    creationTime INTEGER,
    modules ModuleList
}

ModuleList ::= SEQUENCE OF Module


Module ::= SEQUENCE
{
    status ENUMERATED { mod-ok(0), mod-not-linked(1), mod-error(2) },
    modId      ModuleId,
    tagDefault ENUMERATED { explicit-tags(0), implicit-tags(1) },
    exportStatus  ENUMERATED { exports-all(0), exports-nothing(1),
                               exports-some(2) },
    imports    ImportModuleList,
    typeDefs   TypeDefList,
    valueDefs  ValueDefList,
    hasAnys    BOOLEAN,

    asn1SrcFileName MyString,
    cHdrFileName    MyString,
    cSrcFileName    MyString,
    cxxHdrFileName  MyString,
    cxxSrcFileName  MyString

    cxxname		MyString, -- META

    idlFileName		MyString, -- IDL
    idlname		MyString -- IDL
}


ModuleId ::= SEQUENCE
{
    name MyString,
    oid  OBJECT IDENTIFIER OPTIONAL --snacc cTypeName:"OID" isPtr:"TRUE"
}


ImportModuleList ::= SEQUENCE OF ImportModule


ImportModule ::= SEQUENCE
{
    modId       ModuleId,
    importElmts ImportElmtList,
    moduleRef   Module, --snacc isEncDec:"FALSE"
    lineNo INTEGER
}


ImportElmtList ::= SEQUENCE OF ImportElmt


ImportElmt ::= SEQUENCE
{
    resolvedRef CHOICE
    {
        type  [0] TypeDef,  -- not encoded
        value [1] ValueDef  -- not encoded
     } OPTIONAL,
    name MyString,
    privateScope BOOLEAN, -- true if from MODNAME.TYPE ref
    lineNo INTEGER
}

TypeDefList ::= SEQUENCE OF TypeDef

OidOrInt ::= CHOICE
{
    oid OBJECT IDENTIFIER,
    intId INTEGER
}

AnyRef ::= SEQUENCE
{
    anyIdName MyString,
    id OidOrInt
}

AnyRefList ::= SEQUENCE OF AnyRef

TypeDef ::= SEQUENCE
{
    exported     BOOLEAN,
    recursive    BOOLEAN,
    isPdu    BOOLEAN,
    localRefCount     INTEGER,
    importRefCount     INTEGER,
    tmpRefCount    INTEGER,
    visited      BOOLEAN,
    definedName  MyString,
    type         Type,
    cTypeDefInfo CTDI,
    cxxTypeDefInfo CxxTDI,
    attrList     AttributeList,
    refList      TypeDefList,
    anyRefs      AnyRefList
}


Tag ::= SEQUENCE
{
    tclass INTEGER, -- swap this for the BER_CLASS enum from basetypes.h
    form  INTEGER,  -- swap this for the BER_FORM enum
    code  INTEGER,
    explicit BOOLEAN,
    valueRef Value
}

Type ::= SEQUENCE
{
    optional   BOOLEAN,
    implicit   BOOLEAN,
    tags       TagList,
    defaultVal [0] IMPLICIT NamedValue OPTIONAL,
    subtypes   [1] Subtype OPTIONAL,
    basicType  [2] BasicType,
    lineNo     INTEGER,
    cTypeRefInfo CTRI,
    cxxTypeRefInfo CxxTRI,
    attrList   AttributeList
}

TagList ::= SEQUENCE OF Tag

AttributeList ::= SEQUENCE OF MyString

NamedNumberList ::= ValueDefList


-- BasicTypes with NULL need no more info that which type it is
-- (this is known from the choice id)

BasicType ::= CHOICE
{
    unknown         [0]  IMPLICIT NULL,
    boolean         [1]  IMPLICIT NULL,
    integer         [2]  IMPLICIT NamedNumberList,
    bitString       [3]  IMPLICIT NamedNumberList,
    octetString     [4]  IMPLICIT NULL,
    null            [5]  IMPLICIT NULL,
    oid             [6]  IMPLICIT NULL,
    real            [7]  IMPLICIT NULL,
    enumerated      [8]  IMPLICIT NamedNumberList,
    sequence        [9]  IMPLICIT NamedTypeList,
    sequenceOf      [10] IMPLICIT Type,
    set             [11] IMPLICIT NamedTypeList,
    setOf           [12] IMPLICIT Type,
    choice          [13] IMPLICIT NamedTypeList,
    selection       [14] IMPLICIT SelectionType,
    componentsOf    [15] IMPLICIT Type, --  [Resolved](local/import) type ref
    any             [16] IMPLICIT NULL,
    anyDefinedBy    [17] IMPLICIT AnyDefinedByType,
    localTypeRef    [19] IMPLICIT TypeRef,
    importTypeRef   [20] IMPLICIT TypeRef,
    macroType       [21] MacroType,
    macroDef        [22] IMPLICIT MacroDef --snacc isPtr:"FALSE"
}

MacroDef ::= MyString -- just keep the text for now

MacroType ::= CHOICE
{
    rosOperation    [0] IMPLICIT RosOperationMacroType,
    rosError        [1] IMPLICIT RosErrorMacroType,
    rosBind         [2] IMPLICIT RosBindMacroType,
    rosUnbind       [3] IMPLICIT RosBindMacroType,
    rosAse          [4] IMPLICIT RosAseMacroType,
    rosAc           [5] IMPLICIT RosAcMacroType,
    mtsasExtension  [6] IMPLICIT MtsasExtensionMacroType,
    mtsasExtensions [7] IMPLICIT MtsasExtensionsMacroType,
    mtsasExtensionAttribute [8] IMPLICIT MtsasExtensionAttributeMacroType,
    mtsasToken      [9] IMPLICIT MtsasTokenMacroType,
    mtsasTokenData [10] IMPLICIT MtsasTokenDataMacroType,
    mtsasSecurityCategory [11] IMPLICIT MtsasSecurityCategoryMacroType,
    asnObject       [12] IMPLICIT AsnObjectMacroType,
    asnPort         [13] IMPLICIT AsnPortMacroType,
    asnRefine       [14] IMPLICIT AsnRefineMacroType,
    asnAbstractBind      [15] IMPLICIT AsnAbstractBindMacroType,
    asnAbstractUnbind    [16] IMPLICIT AsnAbstractBindMacroType,
    asnAbstractOperation [17] IMPLICIT RosOperationMacroType,
    asnAbstractError     [18] IMPLICIT RosErrorMacroType,
    afAlgorithm     [19] IMPLICIT Type,
    afEncrypted     [20] IMPLICIT Type,
    afProtected     [21] IMPLICIT Type,
    afSignature     [22] IMPLICIT Type,
    afSigned        [23] IMPLICIT Type,
    snmpObjectType  [24] IMPLICIT SnmpObjectTypeMacroType
}


AnyDefinedByType ::= SEQUENCE
{
    fieldName MyString,   -- name of field that its defined by
    link NamedType OPTIONAL  -- REFERENCE not encoded
}


SelectionType ::= SEQUENCE
{
    fieldName MyString,   -- name of field in choice
    typeRef   Type,      -- [Resolved](local/import) type ref
    link NamedType OPTIONAL -- REFERENCE not encoded
}

NamedTypeList ::= SEQUENCE OF NamedType

NamedType ::= SEQUENCE
{
    fieldName  MyString, -- may be empty or NULL str
    type       Type
}


TypeRef ::= SEQUENCE
{
    typeName    MyString,
    moduleName  MyString, -- used for "modname.type" refs (may be null)
    module      Module,   --snacc isEncDec:"FALSE"
    link        TypeDef   --snacc isEncDec:"FALSE"
}



RosOperationMacroType ::= SEQUENCE
{
    arguments NamedType,
    result    NamedType,
    errors    [0] IMPLICIT TypeOrValueList OPTIONAL,
    linkedOps [1] IMPLICIT TypeOrValueList OPTIONAL
}

ValueList ::= SEQUENCE OF Value

TypeOrValueList ::= SEQUENCE OF TypeOrValue

TypeOrValue ::= CHOICE
{
    type  [0] IMPLICIT Type,
    value [1] IMPLICIT Value
}

OidList ::= SEQUENCE OF OBJECT IDENTIFIER


RosErrorMacroType ::= SEQUENCE
{
    parameter NamedType
}

RosBindMacroType ::= SEQUENCE
{
    argument NamedType,
    result   NamedType,
    error    NamedType
}


RosAseMacroType  ::= SEQUENCE
{
    operations       ValueList,
    consumerInvokes  ValueList,
    supplierInvokes  ValueList
}

RosAcMacroType ::= SEQUENCE
{
    nonRoElements       ValueList,
    bindMacroType       Type,
    unbindMacroType     Type,
    remoteOperations    Value,
    operationsOf        ValueList,
    initiatorConsumerOf ValueList,
    responderConsumerOf ValueList,
    abstractSyntaxes    OidList
}


MtsasExtensionMacroType ::=  SEQUENCE
{
    elmtType              [0] IMPLICIT NamedType OPTIONAL,
    defaultValue          [1] IMPLICIT Value    OPTIONAL,
    criticalForSubmission [2] IMPLICIT BOOLEAN  OPTIONAL,
    criticalForTransfer   [3] IMPLICIT BOOLEAN  OPTIONAL,
    criticalForDelivery   [4] IMPLICIT BOOLEAN  OPTIONAL
}


MtsasExtensionsMacroType ::= SEQUENCE
{
    extensions ValueList
}

MtsasExtensionAttributeMacroType ::= SEQUENCE
{
    type Type OPTIONAL
}

MtsasTokenMacroType ::= SEQUENCE
{
    type Type OPTIONAL
}

MtsasTokenDataMacroType ::= SEQUENCE
{
    type Type OPTIONAL
}

MtsasSecurityCategoryMacroType ::= SEQUENCE
{
    type Type OPTIONAL
}

AsnObjectMacroType ::= SEQUENCE
{
   ports  AsnPortList OPTIONAL
}

AsnPortList ::= SEQUENCE OF AsnPort

AsnPort ::= SEQUENCE
{
    portValue Value,
    portType  ENUMERATED
    {
         consumer-port (0),
         supplier-port (1),
         symmetric-port (2)
    }
}


AsnPortMacroType ::= SEQUENCE
{
    abstractOps     [0] IMPLICIT TypeOrValueList OPTIONAL,
    consumerInvokes [1] IMPLICIT TypeOrValueList OPTIONAL,
    supplierInvokes [2] IMPLICIT TypeOrValueList OPTIONAL
}


AsnRefineMacroType ::= INTEGER

AsnAbstractBindMacroType ::= SEQUENCE
{
    ports [0] IMPLICIT AsnPortList OPTIONAL,
    type  [1] IMPLICIT Type OPTIONAL
}


SnmpObjectTypeMacroType ::= SEQUENCE
{
   syntax Type,
   access ENUMERATED
       { snmp-read-only (0), snmp-read-write (1),
         snmp-write-only (2), snmp-not-accessible (3)},
   status ENUMERATED
       { snmp-mandatory (0), snmp-optional (1),
         snmp-obsolete (2), snmp-deprecated (3)},
   description [0] IMPLICIT Value OPTIONAL,
   reference   [1] IMPLICIT Value OPTIONAL,
   index       [2] IMPLICIT TypeOrValueList OPTIONAL,
   defVal      [3] IMPLICIT Value OPTIONAL
}


Subtype ::= CHOICE
{
    single [0] SubtypeValue,
    and    [1] IMPLICIT SubtypeList,
    or     [2] IMPLICIT SubtypeList,
    not    [3] Subtype
}

SubtypeList ::= SEQUENCE OF Subtype

SubtypeValue ::= CHOICE
{
    singleValue       [0] IMPLICIT Value,
    contained         [1] IMPLICIT Type,
    valueRange        [2] IMPLICIT ValueRangeSubtype,
    permittedAlphabet [3] Subtype, -- only valuerange or singleval
    sizeConstraint    [4] Subtype, -- only single value ints or val range
    innerSubtype      [5] IMPLICIT InnerSubtype
}


ValueRangeSubtype ::= SEQUENCE
{
    lowerEndInclusive BOOLEAN,
    upperEndInclusive BOOLEAN,
    lowerEndValue Value,
    upperEndValue Value
}


InnerSubtype ::= SEQUENCE
{
    constraintType ENUMERATED { full-ct (0), partial-ct (1), single-ct (2) },
    constraints ConstraintList
}

ConstraintList ::= SEQUENCE OF Constraint

Constraint ::= SEQUENCE
{
    fieldRef MyString,  -- not used if in single-ct, may be null
    presenceConstraint ENUMERATED
    {
        present-ct (0),
        absent-ct (1),
        empty-ct (2),
        optional-ct (3)
    },
    valueConstraints Subtype
}


ValueDefList ::= SEQUENCE OF ValueDef


ValueDef ::= SEQUENCE
{
   exported    BOOLEAN,
   definedName MyString,
   value       Value
}

Value ::= SEQUENCE
{
    type    Type OPTIONAL,
    valueType  INTEGER,  -- holds one of choiceId's def'd for BasicType
    basicValue BasicValue,
    lineNo     INTEGER
}

BasicValue ::= CHOICE
{
    unknown          [0]  IMPLICIT NULL,
    empty            [1]  IMPLICIT NULL,
    integer          [2]  IMPLICIT INTEGER,
    specialInteger   [3]  IMPLICIT SpecialIntegerValue,
    longInteger      [4]  IMPLICIT INTEGER,  -- put LONG before INTGEGER
    boolean          [5]  IMPLICIT BOOLEAN,
    real             [6]  IMPLICIT REAL,
    specialReal      [7]  IMPLICIT SpecialRealValue,
    asciiText        [8]  IMPLICIT OCTET STRING,
    asciiHex         [9]  IMPLICIT OCTET STRING,
    asciiBitString   [10] IMPLICIT OCTET STRING,
    oid              [11] IMPLICIT OBJECT IDENTIFIER,
    linkedOid        [12] IMPLICIT OBJECT IDENTIFIER, --snacc cTypeName:"OID"
    berValue         [13] IMPLICIT OCTET STRING,
    perValue         [14] IMPLICIT OCTET STRING,
    namedValue       [15] IMPLICIT NamedValue,
    null             [16] IMPLICIT NULL,
    localValueRef    [17] IMPLICIT ValueRef,
    importValueRef   [18] IMPLICIT ValueRef,
    valueNotation    [19] IMPLICIT OCTET STRING
}



SpecialIntegerValue ::= ENUMERATED { min-int (0), max-int (1) }
SpecialRealValue ::= ENUMERATED { minus-infinity-real (0), plus-infinity-real (1) }


ValueRef ::= SEQUENCE
{
    valueName  MyString,
    moduleName MyString, -- used for "modname.value" refs (may be null)
    link       ValueDef, --snacc isEncDec:"FALSE"
    module     Module    --snacc isEncDec:"FALSE"
}

NamedValue ::= SEQUENCE
{
   fieldName MyString, -- may be null
   value     Value
}

NamedValueList ::= SEQUENCE OF NamedValue

CTypeId  ::= ENUMERATED { c-choice (0), c-list (1), c-any (2), c-anydefinedby (3),
                          c-lib (4), c-struct (5), c-typeref (6), c-no-type (7),
                         c-typedef (8) }

-- C Type Def Info - info used for routine naming
-- and referencing from other types
CTDI ::= SEQUENCE
{
    asn1TypeId         INTEGER, --snacc cTypeName:"enum BasicTypeChoiceId"
    cTypeId            CTypeId,
    cTypeName          MyString,
    isPdu              BOOLEAN,
    isEncDec           BOOLEAN, -- if false, no routines are gen
                                -- and not included in encodings
    isPtrForTypeDef    BOOLEAN,
    isPtrForTypeRef    BOOLEAN,
    isPtrInChoice      BOOLEAN,
    isPtrForOpt        BOOLEAN,

               -- defines these names, used by references
    optTestRoutineName MyString, -- routine/macro to check whether
                                 -- opt type is present
    defaultFieldName   MyString, -- base for generating field names

    printRoutineName   MyString,
    encodeRoutineName  MyString,
    decodeRoutineName  MyString,
    freeRoutineName    MyString,

    genPrintRoutine    BOOLEAN,
    genEncodeRoutine   BOOLEAN,
    genDecodeRoutine   BOOLEAN,
    genFreeRoutine     BOOLEAN,
    genTypeDef         BOOLEAN
}


--
-- CTRI (C Type Ref Info) is used for generating C typedefinitions
-- from the ASN.1 types info
CTRI ::= SEQUENCE
{
    cTypeId CTypeId,
    cFieldName MyString,
    cTypeName  MyString,
    isPtr BOOLEAN,
--    isEndCType BOOLEAN,        -- false for struct/union def
    cNamedElmts CNamedElmts OPTIONAL,      -- for C_LIB bits/int/enums
    choiceIdValue INTEGER,     -- enum value of this c field
    choiceIdSymbol MyString,   -- this fields sym in choiceId enum
    choiceIdEnumName MyString,
    choiceIdEnumFieldName MyString,
    optTestRoutineName MyString, -- these names are gained from refd type def
    printRoutineName   MyString,   -- or are over-ridden snacc attribute comment
    encodeRoutineName  MyString,
    decodeRoutineName  MyString,
    freeRoutineName    MyString,
    isEncDec           BOOLEAN -- whether part of enc value
}

CNamedElmts ::= SEQUENCE OF CNamedElmt

CNamedElmt ::= SEQUENCE
{
    name MyString,
    value INTEGER
}


CxxTDI ::= SEQUENCE
{
    asn1TypeId         INTEGER, --snacc cTypeName:"enum BasicTypeChoiceId"
    className          MyString,
    isPdu              BOOLEAN,
    isEnc              BOOLEAN,
    isPtrForTypeDef    BOOLEAN,
    isPtrForOpt        BOOLEAN,
    isPtrInChoice      BOOLEAN,
    isPtrInSetAndSeq   BOOLEAN,
    isPtrInList        BOOLEAN,
    optTestRoutineName MyString,
    defaultFieldName   MyString -- base for generating field names
}



CxxTRI ::= SEQUENCE
{
    isEnc BOOLEAN,
    className MyString,
    fieldName MyString,
    isPtr BOOLEAN,
    namedElmts CNamedElmts,
    choiceIdSymbol MyString,
    choiceIdValue INTEGER,
    optTestRoutineName MyString
}

IDLTDI ::= SEQUENCE
{
    asn1TypeId         INTEGER, --snacc cTypeName:"enum BasicTypeChoiceId"
    typeName           MyString,
    isPdu              BOOLEAN,
    isEnc              BOOLEAN,
    isPtrForTypeDef    BOOLEAN,
    isPtrForOpt        BOOLEAN,
    isPtrInChoice      BOOLEAN,
    isPtrInSetAndSeq   BOOLEAN,
    isPtrInList        BOOLEAN,
    optTestRoutineName MyString,
    defaultFieldName   MyString -- base for generating field names
}

IDLTRI ::= SEQUENCE
{
    isEnc BOOLEAN,
    typeName MyString,
    fieldName MyString,
    isPtr BOOLEAN,
    namedElmts CNamedElmts,
    choiceIdSymbol MyString,
    choiceIdValue INTEGER,
    optTestRoutineName MyString
}

-- use snacc compiler directives to overide the builtin types.
--
-- All strings used in module data struct are null terminated so
-- can just use a char *
-- Note the snacc comments before the PrintableString
-- bind with the MyString TypeDef and the ones after PrintableString
-- bind with the PrintableString Type ref.


MyString ::= --snacc isPtrForTypeDef:"FALSE"
             --snacc isPtrForTypeRef:"FALSE"
             --snacc isPtrInChoice:"FALSE"
             --snacc isPtrForOpt:"FALSE"
             --snacc optTestRoutineName:"MYSTRING_NON_NULL"
             --snacc genPrintRoutine:"FALSE"
             --snacc genEncodeRoutine:"FALSE"
             --snacc genDecodeRoutine:"FALSE"
             --snacc genFreeRoutine:"FALSE"
             --snacc printRoutineName:"printMyString"
             --snacc encodeRoutineName:"EncMyString"
             --snacc decodeRoutineName:"DecMyString"
             --snacc freeRoutineName:"FreeMyString"
             PrintableString --snacc cTypeName:"char *"

END
\end{verbatim}
\end{small}


\chapter{The Type Table (TBL) Data Structure ASN.1 Definition}

The following is the type table data structure that Snacc uses for
type table values.  Using ASN.1 gives a representation suitable for
saving tables to files or sending them over a network to reconfigure a
device (e.g. SNMP mib).

This file is actually compiled by Snacc to compile itself.
For bootstrapping purposes, an initial version is included in the distribution.

\begin{small}
\begin{verbatim}
-- .../asn1specs/tbl.asn1
--
--  TBL types describe ASN.1 data structures.
--  These can be used in generic, interpretive encoders/decoders.
--  Interpretive decoders are typically slower, but don't eat memory
--  with type-specific encoding and decoding code.
--  The tbl types can also be sent over the network
--  and allow dynamic re-configuration of encoders/decoders.
--
--  This definition is fairly small so it should be reasonable easy
--  to understand.  To learn more about semantics of this data
--  struct, look in snacc/tbl-tools/print-tbl/pasn1.c.
--
--  Copyright Mike Sample and UBC, 1992, 1993
--

TBL DEFINITIONS ::=
BEGIN


-- imports nothing
-- exports nothing

TBL ::= --snacc isPdu:"TRUE" -- SEQUENCE
{
   totalNumModules  INTEGER,  -- these totals can help allocation
   totalNumTypeDefs INTEGER,  -- when decoding (ie use arrays)
   totalNumTypes    INTEGER,
   totalNumTags     INTEGER,
   totalNumStrings  INTEGER,
   totalLenStrings  INTEGER,
   modules SEQUENCE OF TBLModule
}

TBLModule ::= SEQUENCE
{
    name     [0] IMPLICIT PrintableString,
    id       [1] IMPLICIT OBJECT IDENTIFIER OPTIONAL,
    isUseful [2] IMPLICIT BOOLEAN, -- true if useful types module
    typeDefs [3] IMPLICIT SEQUENCE OF TBLTypeDef
}

TBLTypeDef ::= SEQUENCE
{
   typeDefId TBLTypeDefId,
   typeName  PrintableString OPTIONAL, -- I have forgotten why this is opt!
   type      TBLType
}

TBLType ::= SEQUENCE
{
   typeId    [0] IMPLICIT TBLTypeId,
   optional  [1] IMPLICIT BOOLEAN,
   tagList   [2] IMPLICIT SEQUENCE OF TBLTag OPTIONAL,
   content   [3] TBLTypeContent,
   fieldName [4] IMPLICIT PrintableString OPTIONAL
}

TBLTypeContent ::= CHOICE
{
   primType [0] IMPLICIT NULL,
   elmts    [1] IMPLICIT SEQUENCE OF TBLType,
   typeRef  [2] IMPLICIT TBLTypeRef
}

TBLTypeRef ::= SEQUENCE
{
    typeDef TBLTypeDefId,
    implicit BOOLEAN
}

TBLTypeId ::= ENUMERATED
{
    tbl-boolean (0),
    tbl-integer (1),
    tbl-bitstring (2),
    tbl-octetstring (3),
    tbl-null (4),
    tbl-oid (5),
    tbl-real (6),
    tbl-enumerated (7),
    tbl-sequence (8),
    tbl-set (9),
    tbl-sequenceof (10),
    tbl-setof (11),
    tbl-choice (12),
    tbl-typeref (13)
}

TBLTypeDefId ::= INTEGER

TBLTag ::= SEQUENCE
{
    tclass TBLTagClass,
    code INTEGER (0..MAX)
}

TBLTagClass ::=  ENUMERATED { universal (0), application (1),
                             context (2), private (3)}

END

\end{verbatim}
\end{small}

\chapter{\label{edex-files}ASN.1 Files for the Editor Example}

The files can be found in {\ufn \dots/tcl-example/}.

\begin{ASNcode}
\label{edex0.asn1}%
--\,-- file: edex0.asn1\\
--\,--\\
--\,-- SnaccEd example, simple types module\\
\\
EdEx-Simple DEFINITIONS ::=\\
BEGIN\\
\\
RainbowColor ::= INTEGER\\
\{\\
  \>red(0), orange(1), yellow(2), green(3), blue(4), indigo(5), violet(6)\\
\}\\
\\
DayOfTheWeek ::= ENUMERATED\\
\{\\
  \>sunday(0), monday(1), tuesday(2), wednesday(3), thursday(4), friday(5), saturday(6)\\
\}\\
\\
Hand ::= BIT STRING\\
\{\\
  \>thumb(0), forefinger(1), middle-finger(2), ring-finger(3), little-finger(4)\\
\}\\
\\
victory Hand ::= \{ forefinger, middle-finger \}\\
\\
END
\end{ASNcode}

\begin{ASNcode}
\label{edex1.asn1}%
--\,-- file: edex1.asn1\\
--\,--\\
--\,-- SnaccEd example, structured types module\\
\\
EdEx-Structured DEFINITIONS ::=\\
BEGIN\\
\\
IMPORTS RainbowColor, DayOfTheWeek, Hand FROM EdEx-Simple;\\
\\
RGBColor ::= SEQUENCE\\
\{\+\\
  red INTEGER,\\
  green INTEGER,\\
  blue INTEGER\-\\
\}\\
\\
Coordinate ::= CHOICE\\
\{\+\\
  cartesian [0] SEQUENCE \{ x REAL, y REAL \},\\
  polar [1] SEQUENCE \{ angle REAL, distance REAL \}\-\\
\}\\
\\
File ::= SET\\
\{\+\\
  name [0] PrintableString,\\
  contents [1] OCTET STRING,\\
  checksum [2] INTEGER OPTIONAL,\\
  read-only [3] BOOLEAN DEFAULT FALSE\-\\
\}\\
\\
Directory ::= SET\\
\{\+\\
  name PrintableString,\\
  files SET OF File\-\\
\}\\
\\
Simple ::= SET\\
\{\+\\
  null   [0] NULL,\\
  bool   [1] BOOLEAN,\\
  day    [2] DayOfTheWeek,\\
  int    [3] INTEGER,\\
  color  [4] RainbowColor,\\
  real   [5] REAL,\\
  bits   [6] Hand,\\
  str    [7] OCTET STRING,\\
  optstr [8] OCTET STRING OPTIONAL\-\\
\}\\
\\
Structured ::= SET\\
\{\+\\
  coord [0] Coordinate,\\
  color [1] CHOICE \{ rainbow RainbowColor, rgb RGBColor \}\-\\
\}\\
\\
Various ::= SET\\
\{\+\\
  simple [0] Simple,\\
  struct [1] Structured,\\
  recursion [2] Various OPTIONAL\-\\
\}\\
\\
END
\end{ASNcode}
